Evaluation of Runway Capacity at Fatmawati Soekarno Airport, Bengkulu
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Fatmawati Soekarno Airport is one of the airports that acts as the main gateway for air transportation and the growth of the tourism economy in Bengkulu City. From the results of the study, it is known that for condition 1) the runway capacity in existing conditions in 2023 is for 30 departure operations, 25 arrival operations and 25 mixed operations with 10 aircraft movements, the capacity in existing conditions is still sufficient, but it is known that the runway needs to be added along 933 m. Meanwhile, the analysis of runway capacity in condition 2) for 30 departure operations, 24 arrival operations and 24 mixed operations with 28 aircraft movements, the current capacity is not sufficient for this movement, and geometrically to serve the international scale, it is necessary to extend the runway 717 m from the existing ideal condition equipped with runway shoulder and clearway. And the results of the analysis of condition 3) runway capacity for 30 departure operations, 26 arrival operations and 22 mixed operations with 72 aircraft movements.
Agung, I. G., Mas, A., Yuniar, D. C., & Purwaningtyas, D. A. (2022). Analysis of Saturated Capacity on the Runway Based on Advisory Circular 150 / 5060-5 As a Study Material for Airport Management Learning. 3(3), 373–381. https://doi.org/10.46843/jiecr.v3i3.120
Airlines Inform. (n.d.-a). Airlines Inform Airbus A330-300. https://www.airlines-inform.com/commercial-aircraft/airbus-a330-300.html
Airlines Inform. (n.d.-b). Airlines Inform Boeing 737-900ER. https://www.airlines-inform.com/commercial-aircraft/boeing-737-900.html
FAA. (2014). Airport design advisory circular 150/5300-13A. Federal Aviation Administration.
Gujarati, D. N., Corlett, W. J., & Aigner, D. J. (2003). Basic Econometrics. In The Economic Journal (Vol. 82, Issue 326). https://doi.org/10.2307/2230043
Horonjeff, R., McKelvey, F., Sproule, W., & Young, S. (2010). Planning and design of airports. McGraw-Hill Companies.
Horonjeff, R., Mckelvey, F. X., Sproule, W. J., & Young, S. B. (2010). Planning and Design of Airports.
ICAO. (2006). Manual on Air Traffic Forecasting. International Organization, 14(3), I-1-III–30.
ICAO. (2018). Procedures for Air Navigation Services (PANS) - Aircraft Operations - Volume I - (Doc 8168-1. In Procedures for Air Navigation Services: Vol. I (Issue November).
Indonesia, P. (2005). SKEP 77-VI-2005 Dirjen Perhubungan.
International Civil Aviation Organization. (2013). ICAO Annex 14, 6th Edition, July 2013: Vol. I (Issue July).
International Civil Aviation Organization (ICAO). (2016). Aerodromes Design & Operations - Annex 14. In Convention on International Civil Aviation: Vol. I (Issue July). http://cockpitdata.com/Software/ICAO Annex 14 Volume 1 7th Edition 2016
Kementerian Perhubungan. (2008). KM 6 Tahun 2008 Tentang Kriteria Klasifikasi Organisasi Unit Pelaksana Teknis Bandar Udara. https://jdih.dephub.go.id/assets/uudocs/permen/2008/km_no_6_tahun_2008.pdf
Lewa, M. S., Ariawan, P., & Budiarnaya, P. (2020). Evaluasi Perkerasan Landasan Pacu Pada Bandara Pattimura Dengan Membandingkan Metode FAA dan FAARFIELD Software. 3(2), 1–8.
Mapeda, P. J., Pandey, S. V, & Lalamentik, L. G. J. (2020). Analisis Kapasitas Landasan Pacu (Runway) Pada Bandar Udara Internasional Sam Ratulangi Manado. 8(1).
Pasapan, H. P., Ircham, & Anggorowati, V. D. A. (2021). Evaluasi Landas Pacu Bandar Udara (Studi Kasus : Bandar Udara Pongtiku Tana Toraja , Sulawesi Selatan). 02(01), 55–66.
Ramadhan, F. N., Rintawati, D., & Sari, C. (2023). Analisis Kapasitas Air Side (Studi Kasus : Bandar Udara Internasional Lombok) Analysis Air Side Capacity (Case Study : Lombok International Airport). 01(02).
Ricardianto, P., Putra, A. P., Adi, E. N., Wardana, A., Rafi, S., Ozali, I., & Endri, E. (2022). Evaluation of the Two Runway Queuing System : Evidence from Soekarno-Hatta International Airport in Indonesia. 17, 142–152. https://doi.org/10.37394/23203.2022.17.16
Sari, A. N., Amanah, T., Pratama, M. A. S., Suryan, V., & Amalia, K. R. (2023). Evaluasi Runway Bandara Fatmawati dengan Menggunakan Software Comfaa. 10(1), 151–158.
Silvia, S., Suparma, L. B., & Utomo, S. H. T. (2021). Analisis Pengembangan Geometrik Runway Bandar Udara Fatmawati Soekarno Kota Bengkulu. Journal of Civil Engineering and Planning, 2(2), 120. https://doi.org/10.37253/jcep.v2i2.5201
Suprianto, H., Arifin, T. S. P., & Haryanto, B. (2020). Analisis Perhitungan Kapasitas Runway Pada Bandar Udara Internasional Aji Pangeran Tumenggung Pranoto Samarinda. 4, 20–38.
Susanto, J., Nisumanti, S., & Qubro, K. Al. (2022). Analisis Kapasitas Landasan Pacu (Runway) Bandar Udara Internasional Sultan Mahmud Badaruddin II Terhadap Jumlah Penumpang Pada Masa Pandemi Covid-19. 7, 219–233.
Tascon, D. C., & Olariaga, O. D. (2021). Air traffic forecast and its impact on runway capacity . A System Dynamics approach. 90(November 2019). https://doi.org/10.1016/j.jairtraman.2020.101946
Boon, S., Johnston, B. and Webber, S., 2007. A phenomenographic study of English faculty's conceptions of information literacy. Journal of Documentation, [e-journal] 63(2), pp.204 - 228. http://dx.doi.org/10.1108/00220410710737187.
Wang, Z. Joseph H.W. Lee and Mengzhen Xu. 2012. Ecohydrolic and eco-sedimentation studies in China. Jornal of Hydrolic Research [e-Journal] 51(1), pp.55-62. doi:10.1080/00221686.2012.753554
